Effect of Gold Nanoparticles on Dynamic Electro-Optic Properties of Acrylate Liquid Crystal Polymers

Abstract

The study focuses on the photoelectrical properties for polymers that possess completely different molecular weights supported the propenoate spine, a powerful coupling between the mesogenic aspect chains and also the compound chain contend by compound chain snap was found to play a vital role in static static properties. switch times (on and off) throughout the amount underneath the influence of the electrical field area unit measured. The addition of gold nanoparticles would end in lower temperatures throughout the transition section, which might cut back switch times.
Measurement of the threshold voltage variation occurs in fixed steps below the transfer temperature of the specific properties of the polymer (TNI) series. The large molecular weight of the polymer has a high sill voltage for the photovoltaic answer and are linked to the flexible internal stability of liquid crystalline polymers.
The work of photovoltaic cells improves after the addition of nanoparticles. The contribution of bipolar torque in the cyano-groupparallel channel decreases in thetall axis for the mesogenic unity and so themesonicsill associated with the polymer chain decreases its density and leads to an increase in the anisotropy. The infrared spectrometer was used to determine the directional parameter (s) of the liquid crystals with the side chain. Directional ordering parameters (s) depend on different molecular weights with temperature and threshold voltage.